Diversity of macro-detritivores in dead wood is influenced by tree species, decay stage and environment

This study assesses the effects of environmental traits and landscape management on the biodiversity of saproxylic beetles from “dehesas” located in Sierra Morena Mountains (Córdoba, Southern Iberian Peninsula). The dehesa is an open savanna-like landscape with mature/old trees scattered on a pasture cover where both living and dead wood are of great importance for the maintenance of macroinvertebrate fauna. The study was carried out in five plots, with different environmental features and management. A total of 137 branches belonging to the four main tree species present in the area were collected, classified, and kept under four different thermal conditions. From January to June 2019, the adult emergences were followed. A total of 466 saproxylic specimens of 31 species were obtained, 5 of them included in red lists of protected fauna. Two Bostrichidae species (Lichenophanes numida Lesne and Scobicia pustulata Fab.) and two Cerambycidae (Chlorophorus ruficornis Oliv. and Trichoferus fasciculatus Faldermann) are included in the “European Red List of Saproxylic Beetles”; and the Clerid Tillus ibericus Bahillo de la Puebla, López–Colón and García–Paris, is included in the “Red Book of Invertebrate of Andalucía”. Differences were observed regarding the diversity and abundance among the plots and among the tree species from which the beetles emerged. Simple regression analyses revealed negative relationships between tree density/Buprestidae, livestock/Bostrichidae, and land use/Cerambycidae. Multivariant logistic regression analysis did not find significant relationships among environmental traits and saproxylic diversity. Results confirmed that dry wood was a main resource for the maintenance dehesas’ biodiversity because it constitutes an ecological niche exploited by a significant set of saproxylic beetles belonging to the Bostrichidae, Buprestidae, and Cerambycidae families, in addition to other guilds of species, mainly Carabidae and Cleridae, which feed on the above-mentioned groups. Our results also support that increasing environmental temperature accelerates the development of Buprestidae, but this effect was not evident for the Bostrichidae species.

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Quantitative and qualitative attributes of dead wood in dominated by Carpinus betulus L. forests in Kaniv Nature Reserve

Agroecological journal ◽

10.33730/2077-4893.1.2021.227238 ◽

2021 ◽

pp. 42-53

Author(s):

O. Chornobrov ◽

V. Shevchik ◽

I. Solomakha

Keyword(s):

Tree Species ◽

Dead Wood ◽

Nature Reserve ◽

Structural Features ◽

Average Volume ◽

Carpinus Betulus ◽

Permanent Sample Plots ◽

Norway Maple ◽

Standing Dead ◽

Fallen Dead Wood

The article presents the quantitative and qualitative attributes of dead wood in forests dominated by Carpinus betulus L. in Kaniv Nature Reserve. The study was conducted in 130–140-year natural common hornbeam forests on two permanent sample plots of 0.24 ha each by identifying and measuring all components of standing and lying (fallen) dead wood. It was found that wood detritus has an average volume of 39.8 m3/ha consists of standing dead trees (23.1%) and fallen dead wood (76.9%). The species composition is dominated by common hornbeam (96.5%), and the share of Norway maple (Acer platanoides L.) is low (3.5%). Wood of II (13.2 m3/ha, 33.1%) and III (12.2 m3/ha, 30.7%) classes of destruction predominates. Standing dead wood is formed by only one tree species — common hornbeam and has an average volume of 9.2 m3/ha. It is represented mainly by standing broken trees. The volume of standing dead wood is dominated by wood detritus of the II stage of decomposition (95.7%). Fallen dead wood is formed by two tree species — common hornbeam (95.4%) and Norway maple (4.6%), has an average volume of 30.6 m3/ha. It is represented by whole uprooted and broken fallen trees (trunks), fragments of fallen trees (trunks) and rough branches. Lying dead wood is represented by detritus of all five classes of decomposition, but wood of III (12.2 m3/ha, 39.9%) and IV (9.6 m3/ha, 31.4%) classes predominates. The volume of fallen dead wood is mainly formed by components with an average diameter of 10.1–30.0 cm (75.7%). The diversity of fractions and components, structural features, sizes and stages of decomposition of dead wood can be important in the formation of potential habitats and substrates for a number of species of living organisms.

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On the insect fauna of dead wood at the early stage of decay

Известия СПбЛТА ◽

10.21266/2079-4304.2017.220.33-45 ◽

2017 ◽

Author(s):

А.Э. Хумала ◽

М.Ю. Мандельштам ◽

Н.Б. Никитский ◽

А.В. Полевой

Keyword(s):

Picea Abies ◽

Species Composition ◽

Tree Species ◽

Betula Pendula ◽

Dead Wood ◽

Early Stage ◽

Populus Tremula ◽

Trophic Relationships ◽

Insect Fauna ◽

Trunk Diameter

Мертвая древесина является основным местообитанием для огромного числа лесных видов насекомых, которые используют ее как пищу, субстрат для развития или временное убежище, одновременно участвуя в ее разложении. Видовой состав комплекса насекомых-разрушителей древесины в бореальной зоне довольно хорошо изучен, но до сих пор значительная часть типичных лесных групп представлена видами, биология и пищевая специализация которых изучены недостаточно. В 2015 г. нами исследована фауна насекомых на валеже текущего года трех пород деревьев: береза (Betula pendula), осина (Populus tremula) и ель (Picea abies x fennica). Исследования проводились в заповеднике «Кивач» (Республика Карелия) с использованием специализированных ловушек – стволовых эклекторов. В сборах идентифицировано 107 видов насекомых из 34 семейств отрядов Coleoptera, Hymenoptera и Diptera. Видовое разнообразие сильно варьировало на различных стволах, не зависело от породы и типа отпада (ветровал/бурелом), но имело тенденцию к росту с увеличением диаметра ствола. Видовой состав был довольно специфичен на всех породах, но достоверно отличался только на ели. Анализ распределения видов насекомых на стволах выявил несколько их ассоциаций как на березе, так и на ели, что позволяет говорить о совместной встречаемости некоторых видов (не связанных друг с другом прямыми трофическими связями), а возможно и о существовании более тесных связей между ними. Отмечен ряд видов, редко встречающихся в Фенноскандии, а также ранее не регистрировавшихся в Карелии. Приводится список видов, для которых удалось выявить не известные ранее особенности биологии, а также видов, находки которых интересны в фаунистическом плане. Dead wood is the main habitat for a large number of forest-dwelling insects that use it as a food source, development substrate, or temporary shelter, simultaneously contributing to its disintegration. Species composition of wood-inhabiting insects is well studied in the boreal zone, however a significant part of the typical forest-living groups is represented by species with poorly studied biology and trophic relationships. In 2015, we studied insect fauna on freshly fallen trees of birch (Betula pendula), aspen (Populus tremula) and spruce (Picea abies x fennica). The studies were conducted in the Nature Reserve Kivach (Republic of Karelia) using specially designed trunk emergence traps. Altogether, 107 species, representing 34 families of Coleoptera, Hymenoptera and Diptera were identified. Species diversity varied significantly on different trunks. It did not depend on the tree species or a type of strap (windfall/windbreak), but tended to increase with increasing trunk diameter. The species composition of insects was quite distinctive on different tree species, but differed significantly only on spruce. Analysis of the species distribution revealed several associations on birch and spruce, which suggests at least co-occurrence of some insect species (not assuming direct trophic link) and possibly existence of a closer relationships between them. The range remarkable of species has been observed, including rare representatives of Fennoscandian fauna and species not registered before in the Republic of Karelia. We provide a selective list of species with notes on previously unknown ecological peculiarities, as well as species that represent valuable faunistic findings.

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A Permanent Research Platform for Ecological Studies in Intact Temperate Mountainous Forests from Slătioara UNESCO Site and Its Surroundings, Romania

Forests ◽

10.3390/f11091004 ◽

2020 ◽

Vol 11 (9) ◽

pp. 1004

Author(s):

Gabriel Duduman ◽

Mihai-Leonard Duduman ◽

Daniel Avăcăriței ◽

Ionuț Barnoaiea ◽

Cătălina-Oana Barbu ◽

...

Keyword(s):

Norway Spruce ◽

Tree Species ◽

Dead Wood ◽

Future Research ◽

Silver Fir ◽

Wood Volume ◽

Square Grid ◽

Main Research ◽

Research Platform ◽

Unesco Site

This paper describes a permanent research platform (PRP) designed and implemented in “Codrul secular Slătioara” and its surroundings (2205.85 ha), having also the role of introductory paper for future research articles based on data collected from this platform. “Codrul secular Slătioara” is known as one of the largest temperate mountainous intact forests of Europe and, in 2017, it was included in UNESCO World Heritage List, as part of the “Ancient and Primeval Beech Forests of the Carpathians and Other Regions of Europe”. Moreover, the PRP overlaps other three scientific reserves, the share of strictly protected forests exceeding 70%. This platform has a multiple role, being developed for research, conservation and educational activities. The PRP was designed for an ecological analysis of the intact forest ecosystems. It contains 193 circular sample plots, each of them of 500 m2, and it is structured on two levels. The first level contains 58 sample plots corresponding to a square grid of 500 × 500 m, stretching over the entire forested area, and the second level contains 135 plots, placed according to a square grid of 100 × 100 m, covering 136 ha within the core area of the UNESCO site. We measured the characteristics of 8296 living trees, 1743 standing dead trees, 1900 dead wood trunks, 3214 saplings, and the abundance–dominance indices of flora species. Thus, we identified 14 tree species, 17 shrub species, and 248 other cormophyte species forming the herbaceous layer. In terms of volume, the main tree species are Norway spruce, silver fir and European beech. The tallest species are Norway spruce (56 m) and silver fir (51 m). The average volume of living trees is 659 m3·ha−1, with a maximum of 1441 m3·ha−1. The mean total dead wood volume is about 158 m3·ha−1, with sample plots where the total dead wood volume exceeds 600 m3·ha−1. After presenting the results of preliminary data processing, the paper describes the main research topics to be further considered, based on the PRP, and the foresights related to the PRP’s monitoring and development.

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Dead wood basic density, and the concentration of carbon and nitrogen for main tree species in managed hemiboreal forests

Forest Ecology and Management ◽

10.1016/j.foreco.2015.06.039 ◽

2015 ◽

Vol 354 ◽

pp. 35-42 ◽

Cited By ~ 18

Author(s):

Kajar Köster ◽

Marek Metslaid ◽

Jeroen Engelhart ◽

Egle Köster

Keyword(s):

Tree Species ◽

Dead Wood ◽

Basic Density ◽

Carbon And Nitrogen ◽

Wood Basic Density

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Das Potenzial der Totholzakkumulation im deutschen Wald | Potential of deadwood accumulation in German forests

Schweizerische Zeitschrift fur Forstwesen ◽

10.3188/szf.2010.0171 ◽

2010 ◽

Vol 161 (5) ◽

pp. 171-180 ◽

Cited By ~ 1

Author(s):

Franz Kroiher ◽

Katja Oehmichen

Keyword(s):

Tree Species ◽

Forest Inventory ◽

Decay Constant ◽

Dead Wood ◽

Large Diameter ◽

Timber Harvesting ◽

National Forest Inventory ◽

Time Span ◽

National Forest

Deadwood is an important part of the forest ecosystem. The quantity available depends on the rates of accumulation and of decomposition. A comprehensive pool of data regarding the deadwood stock for Germany is collected by the German national forest inventory. Moreover, the Projection Modelling of Forest Development and Timber Harvesting Potential (WEHAM) adds other important parameters such as growth rates and potential roundwood availability. Using this data, scenarios for the accumulation of deadwood were developed. For the calculation of deadwood decomposition, independent of tree species, a decay constant k = 0.054 was derived for the whole of Germany. The study shows that a long-term stop in timber harvesting in Germany, assuming the proportions of different tree species remained constant, would lead to a saturation of deadwood with a total of 184 m3/ha. If the German forest presented a natural composition of tree species, a deadwood stock of 150 m3/ha at most could be accumulated. Based on these scenarios, rates of accumulation of total dead-wood and of deadwood of large diameter can be calculated taking into account the deadwood stock levels desired and the time span involved. It has been shown that 7.3% of the WEHAM potential roundwood availability must remain in the forest per year if the quantity of deadwood is to be maintained at 11.5 m3/ha. If an increase in the accumulation of deadwood is to be aimed for, the annual input rate together with the desired deadwood stocks are increasingly influenced by the time span involved. Thus shorter time spans with greater stocks of deadwood to be achieved make it possible to approach the WEHAM potential roundwood availability. The results presented in this paper should assist in decision-making concerning stocks of deadwood to be aimed for in the forest and, in the future, serve as a basis for the selection, evaluation and discussion of quantities of dead-wood to be achieved.

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Features of coarse woody debris volume formation in fresh sudibrova conditions in Zmiini islands tract of Kaniv Nature Reserve

Balanced nature using ◽

10.33730/2310-4678.1.2021.231886 ◽

2021 ◽

pp. 102-112

Author(s):

O. Chornobrov

Keyword(s):

Scots Pine ◽

Tree Species ◽

Dead Wood ◽

Nature Reserve ◽

Woody Debris ◽

Wood Volume ◽

Dead Trees ◽

Norway Maple ◽

Standing Dead ◽

Common Oak

Dead wood (woody debris) is an important component of forest ecosystems. It performs a number of ecological and environmental functions. The article studies the peculiarities of the formation of coarse wood detritus volume and its qualitative structure in forests in the conditions of fresh sudibrova of the Zmiiini Islands tract of Kaniv Nature Reserve. The study of dead wood was carried out in 140-year-old pine-oak forests of natural origin on a permanent sample plot (0.24 ha) by identifying and measuring of standing and lying deadwood components. It was found that dead wood in the forest ecosystem was formed due to the dying of trees of five species: common oak (Quercus robur L.), Scots pine (Pinus sylvestris L.), Norway maple (Acer platanoides L.), small-leaved lime (Tilia cordata Mill.) and common hornbeam (Carpinus betulus L.), and has a volume 56.3 m3·ha–1. Dead wood volume is dominated by standing dead trees — 82.1%, and the share of lying dead wood, respectively, is 17.9%. The main part of dead wood volume is formed by two tree species — common oak and Scots pine, the share of which together is 94.3%. Common oak and Scots pine is characterized by a predominance of standing dead wood, while for other tree species — lying dead wood. In general, dead wood is formed by detritus of I–IV classes of destruction, at the same time detritus of class II decomposition has a significant advantage (70.5%), recently dead wood has a much smaller share (I class, 24.8%), and other classes of destruction have insignificant shares, which together do not exceed 5.0%. No woody detritus of the last (V) class of destruction was detected. Volume of standing dead wood is 46.2 m3·ha–1, and is formed by whole and broken dead trees. In terms of species composition, common oak has a significant advantage (74.5%), Scots pine has a much smaller share (25.1%), and the share of Norway maple is insignificant (0.4%). The total standing dead wood volume is dominated by wood of class II destruction (33.0 m3·ha–1, 71.4%) compared with class I (13.2 m3·ha–1, 28.6%). Lying dead wood is represented by four classes of destruction (I–IV), however, no woody debris was found at the late (last) stage of decomposition (class V). In terms of volume, the second class of destruction has an absolute advantage (6.7 m3·ha–1, 66.3%), much less class III detritus (2.3 m3·ha–1, 22.8%). Lying dead wood of common oak is represented by all four classes of destruction, among which III (40.5%) and I (33.3%) classes predominate. Lying dead wood of other tree species is characterized by the predominance of II or III classes of destruction. The main factors in the formation of woody detritus in the pine-oak forest in the Zmiiini Islands tract could be the impact of adverse climatic conditions (long periods without precipitation in summer), which led to the weakening of individual trees and their death, gusts of wind that broke individual tree trunks, low-intensity snow breaks, and the influence of biotic factors (insects, pathogens).

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Species of the genus Allothrips (Thysanoptera, Idolothripinae) from Southeast Asia, with one new species from Yunnan, China

Zootaxa ◽

10.11646/zootaxa.4732.4.10 ◽

2020 ◽

Vol 4732 (4) ◽

pp. 593-595

Author(s):

LAURENCE MOUND ◽

HONGRUI ZHANG

Keyword(s):

New Species ◽

Pacific Ocean ◽

Southeast Asia ◽

Tree Species ◽

Dead Wood ◽

The North ◽

The Pacific ◽

The Pacific Ocean ◽

Plant Families ◽

One New Species

The new species of Phlaeothripidae described here was found breeding in the leaf litter under five unrelated tree species of the plant families Cupressaceae, Lauraceae, Magnoliaceae, Myrtaceae and Pinaceae at the Kunming City Arboretum, Yunnan, China. Species of the genus Allothrips feed on the spores of fungi on the surface of dead leaves and dead wood, and the adults are usually wingless (Mound 1972). A total of 24 taxa are currently listed within this genus, and bibliographic details for each of these is available on ThripsWiki (2019). In a revision of the genus worldwide, Mound (1972) recognized only four species, but with eight subspecies in the Eurasian pillichellus, and six subspecies in the North American megacephalus. Three of the subspecies of megacephalus were described from Australia, but were presumed to have been imported by human trading across the Pacific Ocean. Subsequently, Okajima and Urushihara (1997) described expansus from Thailand as a further subspecies of megacephalus.

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